DIRECT TAIL ACTUATION VS. INTERNAL ROTOR PROPULSION IN AQUATIC ROBOTS

机译：直接尾部致动与水产机器人内部转子推进

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It is common for scientists to look to nature for inspiration in developing robots. Many times biological creatures outperform even the best man made robots. We will be focusing on aquatic locomotion of robots inspired by the locomotion of fish. There are two different means of propulsion of the robots tested in this paper. One model of the robot is propelled only through the oscillations of an internal momentum wheel, while the other is propelled by the direct actuation of a tail structure. Both of these models achieve net propulsion through vortex shedding past their trailing edge, and two of the robots locomotion is also aided by the change in shape from either a passive or active tail. Tests were conducted to highlight the locomotion performance differences of the two different means of locomotion.

机译：科学家们很常见，以便在发展机器人方面看待灵感。许多次的生物生物甚至最好的男人才能实现机器人。我们将专注于受鱼机运动的机器人的水生动动。本文中有两种不同的推进机器人的手段。机器人的一个模型仅通过内部动量轮的振荡推动，而另一个是通过直接致动尾部结构推进。这两种模型都通过涡流脱落通过其后缘来实现净推进，并且两个机器人机置也通过无源或活动尾部的形状的变化来帮助。进行了测试以突出两种不同运动方式的运动性能差异。

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《ASME Annual Dynamic Systems and Control Conference》|2017年|v.p.|共6页
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Beau Pollard; Tyler Berkey; Phanindra Tallapragada;
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中图分类 TP273-53;
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1. Tail-Actuator Propulsion Device for Aquatic Robot [J] . Andrea Manuello Bertetto, Maurizio Ruggiu Journal of robotics and mechatronics . 2006,第1期

机译：水上机器人的尾致动器推进装置
2. On the dynamic model and motion planning for a spherical rolling robot actuated by orthogonal internal rotors [J] . Svinin M., Morinaga A., Yamamoto M. Regular & chaotic dynamics . 2013,第2期

机译：正交内转子驱动球形滚动机器人的动力学模型和运动计划
3. Inverse-model intelligent control of fin-actuated underwater robots based on drag force propulsion [J] . Remmas Walid, Chemori Ahmed, Kruusmaa Maarja Ocean Engineering . 2021,第Nova1期

机译：基于阻力推进的翅片驱动水下机器人逆模型智能控制
4. DIRECT TAIL ACTUATION VS. INTERNAL ROTOR PROPULSION IN AQUATIC ROBOTS [C] . Beau Pollard, Tyler Berkey, Phanindra Tallapragada ASME annual dynamic systems and control conference . 2017

机译：直接尾翼动感VS。水生机器人的内部转子推进
5. Performance Improvements on Rotor Position Sensored and Sensorless FOC of PMSM Intended for EV Propulsion Applications =AMÉLIORATION DE LA PERFORMANCE DE LA CFO AVEC ET SANS CAPTEUR DE POSITION DU ROTOR DANS LES MSAP DESTINÉES AUX APPLICATIONS DE PROPULSION DE VÉ [D] . Lara Cardoso, Jorge. 2017

机译：EV推进应用中PMSM的转子位置传感器和无传感器FOC的性能改进=用于VE推进应用的MSAP中带或不带转子位置传感器的CFO性能得到改善
6. Harnessing bistability for directional propulsion of soft untethered robots [O] . Tian Chen, Osama R. Bilal, Kristina Shea, 2018

机译：利用双稳性来定向软性不受束缚的机器人
7. Propulsion Performance of an Aquatic Mobile Robot Using Traveling-Wave Motion of a Flexible Fin. Relationship between Propulsion Efficiency and Flow Pattern. [O] . Masahiro WATANABE, Kouichi MURAMATU, Nobuyuki KOBAYASHI 2002

机译：水生移动机器人的推进性能使用柔性鳍的行程运动。推进效率与流动模式的关系。
8. TAIL CONTRIBUTION TO THE DIRECTIONAL AERODYNAMIC CHARACTERISTICS OF A l/6-SCALE MODEL OF THE ROTOR SYSTEMS RESEARCH AIRCRAFT WITH A TAIL ROTOR [R] . Raymond E. Mineck 1977

机译：尾部转子系统研究飞机1/6尺度模型定向空气动力学特性的尾部贡献

DIRECT TAIL ACTUATION VS. INTERNAL ROTOR PROPULSION IN AQUATIC ROBOTS

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